Active Pen for Matrix Sensor

1. An input device comprising: a plurality of sensor electrodes organized into a plurality of sets; and a processing system configured to drive the plurality of sensor electrodes with modulated signals having a first frequency, wherein the processing system comprises: a first plurality of receivers coupled to the plurality of sensor electrodes, wherein the first plurality of receivers are configured to obtain first resulting signals comprising effects corresponding to the modulated signals; a second plurality of receivers, wherein each receiver of the second plurality of receivers is coupled to an associated set of the plurality of sensor electrodes and configured to obtain second resulting signals comprising effects corresponding to active signals having a second frequency, wherein the first plurality of receivers and the second plurality of receivers are disjoint sets of receivers; and a multiplexor coupled to the second receiver and to the associated set of the plurality of sensor electrodes associated with the second receiver, wherein the multiplexor is configured to select a sensor electrode from the associated set of sensor electrodes; wherein the processing system is configured to demodulate the first resulting signals based on the first frequency of the modulated signals and the second resulting signals based on the second frequency, wherein the second frequency is different than the first frequency, and is further configured to determine first positional information for a first input object based on the demodulation of the first resulting signals and second positional information for a second input object based on the demodulation of the second resulting signals.

2. The input device of claim 1 , wherein the active signals are transmitted by an input object external to the input device.

3. The input device of claim 1 , wherein the processing system is further configured to select one sensor electrode from each set of sensor electrodes that are proximate to a first location to define a tracking window for tracking movement of the second input object, and obtain from the selected sensor electrode the second resulting signals comprising effects corresponding to the second input object in the tracking window.

4. The input device of claim 3 , wherein the processing system is further configured to, responsive to determining movement of the second input object to a second location, modify a selection of sensor electrodes based on the second location.

5. The input device of claim 3 , wherein the processing system is further configured to select one sensor electrode from each set of sensor electrodes, wherein the selected sensor electrodes define a search pattern distributed across the plurality of sensor electrodes, and determine the first location of the second input object based on resulting signals obtained from the selected sensor electrodes associated with the second plurality of receivers.

6. The input device of claim 1 , wherein the first plurality of receivers includes a first receiver and the second plurality of receivers include a second receiver, wherein the input device further comprises: a multiplexor coupled to the second receiver and to the associated set of the plurality of sensor electrodes associated with the second receiver, wherein the multiplexor is configured to select a sensor electrode from the associated set of sensor electrodes; and current conveyor circuitry coupled to the multiplexor and to the first receiver, wherein the current conveyor circuitry is configured to generate a first signal to the first receiver, and a second signal to the multiplexor associated with the second receiver based on the second resulting signals received from the plurality of sensor electrodes.

7. The input device of claim 1 , further comprising: a modulated power supply configured to generate a modulated reference signal having the first frequency, wherein the second frequency of the active signals is higher than the first frequency of the modulated reference signal.

8. The input device of claim 1 , wherein the input device comprises a display device having an integrated sensing device, wherein at least one sensor electrode of the plurality of sensor electrodes comprises a display electrode of the display device.

9. A processing system configured to drive a capacitive sensing device, the capacitive sensing device having a plurality of sensor electrodes organized into a plurality of sets, the processing system comprising: a sensor module configured to drive the plurality of sensor electrodes with modulated signals having a first frequency, the sensor module comprising: a first plurality of receivers coupled to the plurality of sensor electrodes, wherein the first plurality of receivers are configured to obtain first resulting signals comprising effects corresponding to the modulated signals, and a second plurality of receivers, wherein each receiver of the second plurality of receivers is coupled to an associated set of the plurality of sensor electrodes and configured to obtain second resulting signals comprising effects corresponding to active signals having a second frequency, wherein the first plurality of receivers and the second plurality of receivers are disjoint sets of receivers; wherein the sensor module is further configured to demodulate the first resulting signals based on the first frequency of the modulated signals and demodulate the second resulting signals based on the second frequency, wherein the second frequency is different than the first frequency, and wherein the sensor module is configured to determine first positional information for a first input object based on the demodulation of the first resulting signals and second positional information for a second input object based on the demodulation of the second resulting signals.

10. The processing system of claim 9 , wherein the sensor module is further configured to select one sensor electrode from the associated set of sensor electrodes that are proximate to a first location to define a tracking window for tracking movement of the second input object, and to obtain from the selected sensor electrode the second resulting signals comprising effects corresponding to the second input object in the tracking window.

11. The processing system of claim 10 , wherein the sensor module is further configured to, responsive to determining movement of the second input object to a second location, modify a selection from the associated set of sensor electrodes based on the second location.

12. The processing system of claim 10 , wherein the sensor module is further configured to select one sensor electrode from the associated set of sensor electrodes, wherein the selected sensor electrode defines part of a search pattern distributed across the plurality of sensor electrodes, and to determine the first location of the second input object based on the second resulting signals obtained from the selected sensor electrode associated with a second receiver of the second plurality of receivers.

13. The processing system of claim 9 , wherein the processing system further comprises a pen frequency oscillator configured to provide a second reference signal having the second frequency to the sensor module.

14. The processing system of claim 9 , wherein the second plurality of receivers are configured to obtain the second resulting signals comprising effects corresponding to a second input object transmitting the active signals while the first plurality of receivers is obtaining the first resulting signals comprising effects corresponding to a first input object.

15. The processing system of claim 9 , wherein the first plurality of receivers is configured to obtain and demodulate the first resulting signals based on the first frequency of the modulated signals during a first capacitive sensing period; and wherein the second plurality of receivers is configured to obtain and demodulate the second resulting signals based on the second frequency of the active signals during a second capacitive sensing period.

16. A method for detecting presence of an input object using a capacitive sensing device, the capacitive sensing device having a plurality of sensor electrodes organized in a plurality of sots, the method comprising: driving the plurality of sensor electrodes with modulated signals having a first frequency; receiving first resulting signals at a first plurality of receivers comprising effects corresponding to the modulated signals; receiving second resulting signals at a second plurality of receivers comprising effects corresponding to active signals having a second frequency, wherein the first plurality of receivers and the second plurality of receivers are disjoint sets of receivers; and demodulating the first resulting signals based on the first frequency of the modulated signals and the second resulting signals based on the second frequency, wherein the second frequency is different than the first frequency; and determining first positional information for a first input object based on the demodulation of the first resulting signals and second positional information for a second input object based on the demodulation of the second resulting signals.

17. The method of claim 16 , further comprising: selecting a sensor electrode, which is proximate to a first location, from a set of sensor electrodes associated with a second receiver of the second plurality of receivers to define part of a tracking window for tracking movement of the second input object; and obtaining from the selected sensor electrode the second resulting signals comprising effects corresponding to the second input object in the tracking window.

18. The method of claim 17 , further comprising: responsive to determining movement of the second input object to a second location, modifying a selection from the associated set of sensor electrodes based on the second location.

19. The method of claim 17 , further comprising: selecting a second sensor electrode from the set of sensor electrodes associated with the second receiver, wherein the selected second sensor electrode defines part of a search pattern distributed across the plurality of sensor electrodes; and determining the first location of the second input object based on third resulting signals obtained from the selected second sensor electrode.

20. The method of claim 16 , wherein receiving and demodulating the first resulting signals the second resulting signals are performed during a single capacitive sensing period.